Where Do We Go From Here? A Fork in the Road for Multimode Fiber

This talk will explore the evolution of multimode fiber from inception to current time against the historical transceiver roadmap. We will explore various transceiver form-factors with respect to capability, technology risk, density and cost vs. fiber types that have been deployed (and those yet to be widely deployed). Both transceivers and supported fibers will also be discussed with respect to the evolution of standards that support them.
Attendees will earn 1 BICSI CEC.

There are many considerations when it comes to choosing your fiber termination method – from the number of connections and the application being supported, to performance and overall required time to go live. While pre-terminated fiber solutions offer significant benefits in terms of factor-terminated performance and ease of deployment, they do require proper planning and predetermining of lengths, as well as longer lead times. Choosing a field termination method like fusion splicing or mechanical splice connectors comes with its own set of additional considerations, including cost, required skill set and labor efficiency. This webinar will examine the various types of fiber termination methods available today, providing pros and cons of each method and basic considerations to help you choose the fiber termination that’s right for your specific fiber deployment, including key questions to ask and termination time comparisons and analysis.

This talk will explore the evolution of multimode fiber from inception to current time against the historical transceiver roadmap. We will explore various transceiver form-factors with respect to capability, technology risk, density and cost vs. fiber types that have been deployed (and those yet to be widely deployed). Both transceivers and supported fibers will also be discussed with respect to the evolution of standards that support them.
Attendees will earn 1 BICSI CEC.

Data Centers vary widely in nature and can be roughly classified as hyperscale, multi-tenant, and private. A critical and common component in the operation of such data centers is the installation and maintenance of the physical cabling infrastructure. A fundamental change taking place is the evolution from cables using classic connectors on copper (RJ-45) or fiber optics (LC) to cables terminated by pluggables such as SFP or QSFP. This represents a new challenge as these cables, called Active Optical Cable (AOC) or Direct Attach Copper (DAC), are not easily validated and tested.

Broadcast media is undergoing wholesale change due to demands from consumers, competitors, and creative opportunity for new types of content. Virtualization at multiple points of the distribution and delivery network is recognized as the only way to meet these demands. This webcast will review in detail the technologies involved in the virtualization of broadcast media, from network, to master control centers, to edge device delivery.

Speakers:
Steve Reynolds, CTO, Imagine Communications

Steve Reynolds is Chief Technology Officer at Imagine Communications and responsible for the technical strategy and roadmap of the company, as well as managing business development, partner relationships, and M&A activity. Reynolds brings 20 years of technology leadership in the cable industry to Imagine Communications. At Comcast, he served as Senior Vice President of Premises Technology overseeing the strategy, roadmap and development of all technologies employed in service delivery to the customer premises. Prior to Comcast, Reynolds was Senior Vice President of Technology at OpenTV Incorporated, a world leader in digital and interactive television technology.

>> Mark Mullins - Global Communications Manager, Fluke Networks
Mark is one of the founding members of Fluke Networks, starting in 1993. He has been involved in all of the key areas of the business, including cable testing, network troubleshooting and analysis. He holds a B.S. in Computer Science and an MBA from the University of Washington.

>> Frank Straka - Product Line Manager, Panduit
Frank Straka manages Panduit’s copper and fiber cable product lines. Frank holds multiple degrees in both engineering and business, including a BSEE, MSEE, and MBA. He holds 26 patents in copper connectivity and cable design. Frank is active in the TIA TR42.7 standards group, which developing new standards to support new applications like 25 and 40GBASE-T, 100W PoE++ and NBASE-T. He has spoken at multiple conferences such as BICSI, IWCS, and the Ethernet Summit on new copper developments.

The high speeds expected from future 5G networks and the demands of dense data over those networks is leading to communications network densification. Data centers, a key component of high speed delivery, are redefining their role, becoming a part of the fog and moving increasingly to the edge. This webcast will cover the role micro data centers will play in community network communications infrastructure; their configuration and structure; use of artificial intelligence and virtualization; control systems and operations; and workforce needs.

Level 5 autonomy for automotive and the broader intelligent transportation industry will require hyper broadband connectivity. Smart communities and corporations developing products and services for ubiquitous connectivity understand that it requires a holistic vision of a fully 5G-connected environment.

This webcast will discuss the work cities, and automotive suppliers and OEMs are doing to build infrastructure and transportation vehicles that will move from human driven, through connected to autonomous capabilities.

Real estate developers, owners and tenants are rethinking the office building experience. Not only are buildings becoming increasingly efficient in in-door energy management and operations, they are also beginning to interact with the people who work within the walls, and with the out of doors environment.

This type of sentient building design is making use of increased connectivity to and in buildings, as well as the use of sensors and IoT applications. This webcast will discuss communications and connectivity infrastructure that is being deployed in and to current real estate developments; what buiding owners, operators and tenants expect; the impact smart community development is having on smart buildings; and sample smart building IoT applications.

>> Yann Palmore helps CRE investors, owners, and operators understand how to rethink building system infrastructure to support Internet of Things (IoT) technologies and drive smart building strategies. Yann’s key responsibilities are to guide clients through a structured process that prioritizes program goals, defines specific smart building strategies, specifies appropriate technologies, and oversees program implementation.

>> Ray Moya has over 25 years of network engineering and organizational management experience. His specializations include, wireline and wireless voice and data networks, network security, software development, and finance. He has designed, engineered and installed hundreds of Fortune 500 Company and Government networks. He leads network-consulting teams in LAN/WAN, software development, wireless technologies, and Network security.

For more about the speakers, please visit: http://www.tiaonline.org/webcast-iot-and-smart-buildings-new-construct

Creating a seamless connected environment that supports smart community citizen services, streamlines operations, supports economic development is already a challenge for community officials. There are many different needs and directions to begin the conversion to an “intelligent” environment. Communities are also planning and building not just for current needs, but also for future connectivity infrastructure that will be used by autonomous vehicles, smart buildings, connected homes, AR/VR, eRetail, eHealthcare, smartgrid and more.

This webcast will discuss such questions as:
> What issues are city officials prioritizing for resolution through smart community applications?
> How are communities planning for and deploying small cell infrastructure?
> Which departments are involved in communications infrastructure?
> How can suppliers navigate the multiple departments involved in decision making?
> What business models are cities negotiating with their technology product partners?
> What are some of the lessons learned from cities that you can translate into your own business offering?

Speakers:
Jascha Franklin-Hodge, CIO, Boston, MA
Kate Garman,Smart City Coordinator, Seattle, WA
Peter Marx, former CTO, City of Los Angeles, currently in the position of VP, GE Digital

The volume of data streaming into the data center has been growing exponentially for decades. Bandwidth requirements are expected to continue growing 25 percent to 35 percent per year. At the same time, lower latency requirements continue to escalate. As a result, the design of services and applications—and how they are delivered—is rapidly evolving.

Instead of a single dedicated server, information requests coming into the data center are now fulfilled by multiple servers cooperating in parallelThe traditional three-tier network is quickly being replaced by spine-and-leaf networks. As a result, the physical infrastructure must be able to support higher link speeds and greater fiber density while enabling quick and easy migration to new more demanding applications.

The Internet of Things is upon us. Vast amounts of big data are quickly approaching and network traffic, latency and bandwidth are at higher demands than ever. Storing, transmitting, and analyzing this data from IoT devices will require a secure and agile network architecture. Network failover and network security will be of the utmost importance.

How will these changes in demand and technologies have an impact on new standards and protocols? Will network communications between devices and the cloud be safe? Tune into this dynamic panel discussion with leading IoT and network experts for the state of IoT networks.

As TV networks and broadcasters are going virtual, key drivers and disrupters are presenting challenges and opportunities for communications technology suppliers and innovators. On this segment of TIA NOW from TIA’s Connectivity Jam in Dallas, TX, broadcast media executives give us some insight into the future of TV. Joining us are Charlie Vogt, CEO, of Imagine Communications; Richard Friedel, EVP and GM at FOX Networks Engineering & Operations; Brad Wall, SVP of Network Operations at the Disney/ABC Television Group and Kevin Gage, CTO and EVP of Strategic Development at ONE Media.

Understanding the customers’ business model and reaching a healthy consensus between the push of technology (e.g., IoT and 5G) is required in data center design and planning to meet the demand for ubiquitous coverage and the demand of data anytime, anywhere. This presentation will provide an overview of data center design, the changes in the upcoming revision of ANSI/TIA-942 Telecommunications Infrastructure Standard for Data Centers, and review use cases in the implementation of ANSI/TIA-942.

The ANSI/TIA-942 Telecommunications Infrastructure Standard for Data Centers is developed by the TR-42.1 Generic and Premises Cabling Subcommittee. TR-42.1 develops and maintains cabling standards for generic customer-owned telecommunications networks. These standards are intended to specify open systems designed to support a wide variety of voice, data, video, and other low voltage, power-limited applications. TR-42.1 also develops and maintains telecommunications cabling standards for premises networks such as commercial buildings, data centers, building automation, etc. This Subcommittee specifies cabling system topology, architecture, design, installation, testing and performance requirements. Go to https://www.tiaonline.org/all-standards/committees/tr-42 for further info.

As a partner in the oneM2M global IoT standards development Partnership, TIA supports its deployment around the world. oneM2M is designed as an architecture and standards platform for IoT deployments in many industry sectors including Smart Cities, Industrial Automation, Home Automation and eHealth and Telemedicine, among others.

Now in its second published release, it is being deployed in a number of projects.

Now in its second published release, it is being tested for resilience as an IoT standard in a number of projects. This webcast will focus on:

• 3 projects such as Korean Smart Cities(Busan, Ilsan) and Wise-IoT which is the Joint European-Korean project.
• In England, U.K.’s oneTRANSPORT intelligent system trial which serves four U.K. counties. This trial involves England’s highways transportation agency and two private sector sensor-network owners over a single, interoperable IoT platform powered by the oneM2M™ standard.
• Overview of oneM2M certification(including background of the need for oneM2M certification program).
• Introduction of Certified Product (Target service and use cases are included per each company).
• An update from the National Institute for Science and Technology (NIST) on its IoT-enabled Smart City Framework and oneM2M smart city collaboration.

This year, it is expected that 74% of all online traffic will be video with a combination of network broadcasters and Over The Top (OTT) content providers bringing compelling content to and through the Internet. 55% of people in the United States watch video online every day. Facebook, Snapchat, Twitter and Tumbler have launched live streaming capabilities. Twitch, the number one online gaming video platform, sees 9.7 million daily active users (DAUs), with 2 million users broadcasting live streams each month. eSports is a huge gaming draw with some companies seeing upward of 96 million monthly average users (MAUs). And we haven’t even mentioned augmented and virtual reality, yet.

Network speed, capacity and flexibility to meet the growing demand are improving - but not fast enough and with significant needs still not being addressed. This panel will look at the challenges facing getting video to and from end users including: how to manage the need to deliver to both broadcast and OTT; how to ensure seamless customer experiences; what to expect as 4K and higher resolution cameras become ubiquitous; what network buildout and optimization need to take place to ensure the demand for ultra high speed broadband is met.

You can continue the conversation after the webcast during the upcoming TIA Connectivity Jam, being held June 5-7 in Dallas, TX.

Fiber standards and infrastructure for enterprise and data center networks have rapidly evolved over the last several years. From ribbon fiber to encircled flux for multimode, and the requirements for fiber connection quality, everything in the enterprise and data center has changed. Standards and best practices used in the field are struggling to keep up with these changes. Are your fiber test practices keeping up?